SU1108136A1 - Sump for purification of water - Google Patents

Abstract

A WATER CLEANER, including a rectangular case placed at an angle to the horizontal axis, in which a set of shelves parallel to one another and to the walls of the case made of a dielectric material is placed, water inlet and outlet pipes, characterized in that, in order to increase cleaning efficiency, the sump is equipped with dielectric springs attaching a set of shelves to the walls of the housing and connecting the shelves in the set between them, a light source with a diffusing screen placed on the side of the nozzle and for feeding d of water, and a photoexponometer with a light-focusing screen placed on the (L side of the water outlet pipe, the butts in the kit are covered with a layer of insoluble conductive material, the upper layer being anodic and the lower layer cathodic. 00 oo

Description

The invention relates to water supply and sewage and can be widely used, for example, in the purification of drinking and waste water by the method of settling. A horizontal settling tank is known, which is a tank made in the form of a parallelepiped, the bottom of which has a slope for collecting the formed sludge, the supply tank on the supply and disposal pipelines of treated water and distributor perforated water flow in the places of inlet and outlet of treated water . Water purification from contaminants present in it occurs due to their sedimentation in the settling basin under the action of its own BecaCl. The disadvantage of the device is the low effect of water purification from finely dispersed suspension due to the very low sedimentation rate. Also known is a thin-layer tubular sump that includes a cylindrical body with water inlet and outlet connections, located, as a rule, at an angle to the horizon and provided in the lower part with a flocculation chamber made in the form of an expanding body, inside which is installed a system parallel to each other and the flow treated water tubular elements made of a polymeric material (polyethylene / 2). The disadvantages of the known device are the low efficiency of water purification from contamination and the ability to control the quality of the washing, which occurs after the plugging of the in-line space by accumulating contaminants, which leads to the possibility of unproductive consumption of washing water or poor-quality washing. Also known is a settling tank for water purification, including a rectangular housing placed under the coal to the horizontal axis In which is placed a set of shelves parallel to each other and to the walls of the body, made of dielectric material, branch pipes for supplying and discharging water C3J. The disadvantage of this device is the low efficiency of water purification from suspended substances having a small hydraulic size. The purpose of the invention is to increase the efficiency of water purification. The goal is achieved by the fact that a settling tank for cleaning water, including a rectangular case, paved with pbd angle to the horizontal axis, in which a set of shelves parallel to each other and the walls of the case, made of a dielectric material, is placed dielectric springs attaching a set of shelves to the walls of the case and connecting the shelves in the set between themselves, a light source with a light-scattering screen placed on the side of the water supply nozzle and a photoelectric meter with a light focusing screen placed on the side of the water outlet nozzle, the sticks in the kit are covered with a layer of insoluble conductive material, the upper layer being anodic and the lower layer cathodic. FIG. 1 shows the proposed DRAINER for water purification, a cut; in fig. 2 shows section A-A in FIG. 1. The proposed settling tank consists of a dielectric body 1, provided with a nozzle 2 for supplying raw water for treatment and a nozzle 3 for removing treated water. Inside the housing 1, a system of shelves parallel to one another and the direction of movement of water 4 made of a dielectric material is installed. The dielectric shelves 4 are interconnected and with the tank 1 of the settler by means of dielectric springs 5 and are covered under and over with layers of conductive insoluble material. The conductive material layer 6 is connected to a power source so that the upper layer of each dielectric shelf 4 is anodic and the lower cathodic. The sump is also provided with a light source 7 and a light scattering screen 8 installed in front of the shelf system 4, and a light focusing screen 9 with a photoelectric exposure meter 10 installed behind the stick system 4. The sump works as follows. The original water through the pipe 2 of the water supply for processing is fed: inside the housing 1 of the sump. Then, the initial water enters the interpolation space formed by a system of dielectric shelves 4 covered with conductive insoluble material 6, where sedimentation of contaminants occurs under the action of gravity as well as directional force of an electric beam formed by conducting material b layers in such a way that the negatively charged contaminant particles present in the source water are concentrated on the surface of the anode, which is a layer of conductive material The material deposited on the upper surface of each dielectric stick 4. The formation of a continuous layer of sediment on the surface of the shelves 4 causes them to move relative to each other and relative to the body 1 when the dielectric springs 5 are stretched by increasing the weight of the shelves and the volume of free inter-ply space is constant. during the operation of the sump. The washing system of the dielectric shelves 4 is carried out by passing water through the nozzle 3 and removing the wash water and the contaminants being washed off through the nozzle 2. Constantly or periodically, the light signal from the light source 7 enters the light scattering screen 8 and then passes through the interapillary space, the focus screen 9 and recorded with a photoelectric exposure meter 10. The magnitude of the readings of the photoelectric exposure meter 10 determines the parameters of the settling process, as well as the need for washing or its termination due to achieving complete regeneration of the settling tank during flushing. The advantage of the proposed settling tank for water purification in comparison with the known one is that the parallel one another, the dielectric shelves installed inside the sump housing are interconnected by dielectric springs and the surface is covered with layers of conductive insoluble material connected to the power supply so that the top layer is anodic, and each bottom layer is cathodic, in the case there is an additional installed light source, light-scattering and light-focusing screens and photoelectric sponometr.

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/ // The use of conductive insoluble material layers connected to a power source leads to the formation of an electric field in the zone of sedimentation of soil particles present in the source water. Under the action of an electric field, the directional movement of negatively charged contaminant particles to the positively charged surfaces of the shelves accelerates, rapidly coagulates, which also contributes to the precipitation process, as well as to the compaction of sediment formed on the surfaces of the shelves. The use of dielectric springs connecting the sticks and the casing walls to each other determines the inter-shelf distance that is constant during the operation of the sump, which ensures optimum hydrodynamic parameters of the process, namely, the velocity of the initial water and the precipitation zone. At the same time, its efficiency increases. The inter-arboreal distance and the associated efficacy of the settling process is monitored with a light source, a diffusing and focusing screen and a photo-exposure meter. Thus, the proposed sump allows more efficient purification of waste and drinking water from suspended particles in comparison with the known devices.

Claims (1)

A WATER CLEANING WATER, 'including a rectangular casing, placed at an angle to the horizontal axis, which contains a set of shelves parallel to one another and the casing walls made of dielectric material, pipes for supplying and discharging water are distinguished by that, in order to increase the cleaning efficiency, the sump is equipped with dielectric springs attaching a set of shelves to the walls of the housing and connecting the shelves in the set to each other, a light source with a light-diffusing screen placed on the side of the nozzle for For water supply, and a photo exposure meter with a light-focusing screen placed on the side of the water outlet pipe, the shelves in the set are covered with a layer of insoluble conductive material, the upper layer being anode and the lower one being cathode.